Discernibility of Burial Mounds in High-Resolution X-Band SAR Images for Archaeological Prospections in the Altai Mountains

Balz, Timo; Caspari, Gino; Fu, Bihong; Liao, Mingsheng

doi:10.3390/rs8100817

Cited by 18 publications

(16 citation statements)

References 12 publications

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“…The good discernibility of several Early Iron Age burial mounds in the PALSAR-2 images only seems to stand in contrast with our own work on burial mound identification in TerraSAR-X images [22]. In this work, we stated that high-resolution SAR images, e.g., TerraSAR-X spotlight images, are needed to clearly identify burial mounds in the Altai Mountains.…”

Section: Discussionmentioning

confidence: 61%

“…In this work, we stated that high-resolution SAR images, e.g., TerraSAR-X spotlight images, are needed to clearly identify burial mounds in the Altai Mountains. Although the burial mounds of Tunnug 1 and Arzhan 5 are much larger than the examples in [22], the PALSAR-2 results clearly show Figure 10. In a TerraSAR-X slant-range strip map HH image of the same cemetery, we can clearly understand that we are not dealing with an Early Iron Age burial mound.…”

Section: Discussionmentioning

confidence: 86%

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Deciphering Circular Anthropogenic Anomalies in PALSAR Data—Using L-Band SAR for Analyzing Archaeological Features on the Steppe

et al. 2020

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Synthetic aperture radar has been employed for archaeological purposes for nearly forty years: nonetheless, its application among archaeological practitioners has remained limited. We analyzed circular anthropogenic anomalies in a steppe environment in PALSAR-2 data, which appeared as a homogeneous group of signatures. Each anomaly was examined using additional SAR and optical data, as well as investigated through extensive ground truth and, in one case, excavation. We found the anomalies to originate from a wide range of processes and structural characteristics showing the non-intuitive complexity of SAR data interpretation. We found that this is likely the reason for the limited application SAR has seen within the archaeological community. In order to improve the usage of SAR for archaeological purposes beyond change detection and digital elevation models, specific products that are more readily understandable and superior to optical data in a narrow frame of application should be developed.

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Section: Discussionmentioning

confidence: 61%

Section: Discussionmentioning

confidence: 86%

Deciphering Circular Anthropogenic Anomalies in PALSAR Data—Using L-Band SAR for Analyzing Archaeological Features on the Steppe

et al. 2020

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“…The swamp is likely to contain smaller submerged monuments, but these are unlikely to be detected using optical data. As opposed to earlier studies [22], experiments with L-Band SAR have led to decent results in the detection of large stone based structures [6] but also show that, beyond the Early Iron Age burial mound Tunnug 1, there are no other monuments of similar size and composition in the vicinity. The search is therefore focused on the flat areas of the northern river terrace where steppe vegetation makes the mapping task straight forward.…”

Section: The Area Of Interestmentioning

confidence: 61%

Mapping and Damage Assessment of “Royal” Burial Mounds in the Siberian Valley of the Kings

Caspari

2020

Remote Sensing

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The Valley of the Kings in Tuva Republic, southern Siberia, is arguably one of the most important archaeological landscapes in the eastern Eurasian steppes. Nonetheless, little information exists about the spatial characteristics and preservation conditions of this burial ground consisting of large "royal" mounds. We map the large monuments of the Uyuk Valley's northern river terrace and assess their state of preservation based on high-resolution optical satellite data. The burial site consists of several hundred mounds, over 150 of them with diameters of more than 25 m, the largest monuments are bigger than 100 m in diameter. This makes the Valley of the Kings in Tuva Republic one of the largest Early Iron Age burial sites in the Eurasian steppes. Unfortunately, around 92% of the large monuments are in bad condition, mostly due to looting.

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“…Today, companies like Planet offer high-resolution imagery over the entire globe collected on a daily basis though the innovative use of small, inexpensive satellites, and thus in the future imagery access and availability will likely continue to increase. At the same time, technologies that penetrate vegetation canopy are making highresolution topographic datasets available the world over, through programs like TerraSAR-X, a high-resolution synthetic aperture radar satellite system (e.g., Linck et al 2013;Balz et al 2016). Even higher resolution topographic data are being collected by aircraft-based lidar programs (e.g., Chase et al 2011;Opitz and Cowley 2013;Ebert, Hoggarth, and Awe 2016;Johnson and Ouimet 2014), and while these data were once prohibitively expensive, government agencies are increasingly making these data available for free, while drone-based lidar promises to lower costs of acquisition dramatically (see VanValkenburgh et al, this issue).…”

Section: Introductionmentioning

confidence: 99%

Global-Scale Archaeological Prospection using CORONA Satellite Imagery: Automated, Crowd-Sourced, and Expert-led Approaches

Casana

2020

Journal of Field Archaeology

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Declassified CORONA satellite imagery, collected from 1960-1972 as part of the world's first intelligence satellite program, provides nearly global, high-resolution, stereo imagery that predates many of the land-use changes seen in recent decades, and thus has proven to be an immensely valuable resource for archaeological research. While challenges involved in spatially correcting these unusual panoramic film images has long served as a stumbling block to researchers, an online tool called "Sunspot" now offers a straightforward process for efficient and accurate orthorectification of CORONA, helping to unlock the potential of this historical imagery for globalscale archaeological prospection. With these new opportunities come significant new challenges in how best to search through large imagery datasets like that offered by CORONA. In contrast to currently popular trends in archaeological remote sensing that seek to employ either automated, machine learning-based approaches, or alternatively, crowd-sourced approaches to assist in the identification of ancient sites and features, this paper argues for systematic, intensive, and expertled "brute force" methods. Results from a project that has sought to map all sites and related features across a large study in the northern Fertile Crescent illustrate how an expert-led analysis may be the best means of generating nuanced, contextual understandings of complex archaeological landscapes.

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Discernibility of Burial Mounds in High-Resolution X-Band SAR Images for Archaeological Prospections in the Altai Mountains

Cited by 18 publications

References 12 publications

Deciphering Circular Anthropogenic Anomalies in PALSAR Data—Using L-Band SAR for Analyzing Archaeological Features on the Steppe

Deciphering Circular Anthropogenic Anomalies in PALSAR Data—Using L-Band SAR for Analyzing Archaeological Features on the Steppe

Mapping and Damage Assessment of “Royal” Burial Mounds in the Siberian Valley of the Kings

Global-Scale Archaeological Prospection using CORONA Satellite Imagery: Automated, Crowd-Sourced, and Expert-led Approaches

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